Embedded electronic circuit in grinding wheels and methods of embedding

What is claimed is: 1. A bonded abrasive wheel comprising: a plurality of abrasive particles disposed in a binder; a first grinding surface; a second surface opposing the first grinding surface; an outer circumference; a rotational axis extending through a central hub; and a circuit configured as a Radio Frequency Identification (RFID) unit coupled to the abrasive wheel, wherein the circuit comprises: an antenna configured to communicate with one or more external devices and comprising a first end and a second end, the antenna has a radius of curvature about an axis along at least a portion thereof such that the first end is disposed adjacent to but is spaced from the second end, wherein the antenna comprises a mesh having a plurality of openings, each of the plurality of openings being defined between a plurality of strands of the mesh and wherein a total area of all of the plurality of openings is between 5 times and 20 times smaller than a central opening defined by the antenna having the radius of curvature; and an integrated circuit (IC) operably coupled to the antenna and configured to store at least a first data. 2. The abrasive wheel of claim 1 , wherein the antenna comprises a single non-complete loop between the first end and the second end and is embedded within the abrasive wheel so as to be spaced from the first grinding surface. 3. The abrasive wheel of claim 2 , wherein the antenna is spaced away from either the first grinding surface or the second surface by between 0.1% and 200% percent of the radius of curvature of the antenna. 4. The abrasive wheel of claim 1 , wherein the integrated circuit is one of: positioned within the abrasive wheel or positioned at the second surface, and wherein a pair of leads extend into the bonded abrasive wheel from the integrated circuit to electrically connect to the antenna. 5. The abrasive wheel of claim 1 , further comprising one or more capacitors operably coupled the antenna in parallel with the IC. 6. The abrasive wheel of claim 1 , further comprising one or more sensors coupled to the abrasive wheel and an abrading tool configured to drive the abrasive wheel, and wherein: the first data includes data received from the one or more sensors, and the circuit is configured to communicate data, including the at least first data, regarding the abrasive wheel received from the one or more sensors, and the abrading tool comprises a data storage unit configured to store a second data based at least in part on the at least first data. 7. The abrasive wheel of claim 1 , wherein a ratio of a width of the antenna to a longest dimension of the plurality of abrasive particles is at least 1.1 to 1. 8. The abrasive wheel of claim 1 , wherein the central hub is configured to receive a bushing, and wherein the bushing comprises one of: a non-metallic material; or the antenna. 9. The abrasive wheel of claim 1 , wherein the antenna has a variable extent about the axis such that a first one or more portions of the antenna are disposed relatively closer to the axis than a second one or more portions of the antenna. 10. A bonded abrasive wheel comprising: a plurality of abrasive particles disposed in a binder; a first grinding surface; an outer circumference; a rotational axis extending through a central hub; and a circuit configured as a Radio Frequency Identification (RFID) unit coupled to the bonded abrasive wheel, wherein the circuit comprises: an antenna embedded within the bonded abrasive wheel, wherein the antenna comprises a mesh having a plurality of openings, each of the plurality of openings being defined between a plurality of strands of the mesh, and, wherein a total area of all of the plurality of openings is between 5 times and 20 times smaller than a central opening defined by the antenna; and an integrated circuit (IC) operably coupled to the antenna, wherein the integrated circuit is encapsulated within a material having a Young's modulus of greater than 0.25 MPa but less than 125 GPa. 11. The abrasive wheel of claim 10 , wherein the antenna comprises a single non-complete loop between a first end and a second end, and wherein both the antenna and the IC are embedded within the abrasive wheel so as to be spaced from the first grinding surface. 12. The abrasive wheel of claim 10 , wherein the central hub is configured to receive a bushing, and wherein the bushing comprises one of: a non-metallic material; or the antenna.